Self-Guided Study for Chapter 12 and Review

... 22. Know how the horns of gray and the motor and sensory neurons are related. 23. Know the general functions of a motor and sensory neuron. 24. Distinguish between ascending and descending tracts in the CNS. 25. Distinguish between first, second and third order neurons. II. Additional Information to ...

Eagleman Ch 5. Vision

... Two different types of photoreceptors  Rods are more numerous, but are sensitive to a wide range of frequencies (colors).  Cones are concentrated in the fovea and provide more detailed visual information.  Three different cones are sensitive to short, middle, and long wavelengths of light. ...

Brain Areas and Topography

... vaguely in the vicinity (+/- ~3 cm) of where I think it ought to be that lights up for something I think it ought to light up for • Neuroanatomist’s definition of an area: A circumscribed region of the cerebral cortex in which neurons together serve a specific function, receive connections from the ...

07_Nitz_compiled

... KC5. Which of the following cells fire when the animal’s head is in a certain direction relative to the environment? a. Place Cells b. Grid Cells c. Head Direction Cells d. Two of the above e. None of the above DM 4. Which of the following describes area VIP? a. It is involved with integrating perso ...

The human nervous system An anatomical viewpoint

... Multimodal or heteromodal association areas Inferior parietal lobule & large portions of frontal and temporal lobes -- Neurons in these areas respond to multiple sensory modalities and may change their response properties under different circumstances. e.g. A neuron in inferior parietal lobule might ...

Special Seminar in Neuroscience Alterations in the Cortical Connectome

... elements and connections underlying the neurostructural substrate of cognition and memory. Disruption or reduction of the connectome (e.g., changes in dendritic branching and/or spines) appears to play a key role in the onset and progression of dementia. Mild cognitive impairment (MCI), which is ass ...

Topic 11

... – Superior colliculus: Orients the eyes in response to new stimuli ...

The Eye: III. Central Neurophysiology of Vision

... Fields of Vision ► nasal field located on the temporal side of the retina ► temporal field located on the nasal side of the retina ► interruption of the visual pathway at different points ...

19. Visual (2)

... for vision in dim lighting conditions. They are predominate in the peripheral parts but their numbers decrease towards the macula lutea ( the surrounding 1cm to fovea centralis ) , where Cons are more . Cons are responsible for colour vision and due to their arrangement and neuronal connections , th ...

Adaptive, behaviorally gated, persistent encoding of task

... sensory stimuli, depending on current task and context, is an essential component of flexible, goal-directed behavior. Neurons in frontal cortex are likely to contribute to this adaptive ability because of their extraordinary flexibility, responding differently to identical stimuli depending on the ...

Physiology Ch 57 p697-709 [4-25

... b. PREFRONTAL area ALSO is essential to carrying out “thought” processes in the mind resulting from capabilities of prefrontal cortex that allow it to plan motor activities c. Broca’s Area – provides neural circuitry for word formation; located in the posterior lateral prefrontal cortex, partly in p ...

Topographic Mapping with fMRI

... It is possible to stimulate local regions of V1 with transcranial magnetic stimulution (TMS) which results in light perception in the corresponding region of visual space. ...

The Cerebral Cortex

... • The cortex is much larger in mammals than in species that evolved earlier, such as fish and amphibians. • The cross section of the human brain shows how the cerebral cortex has developed around and above more primitive brain structures. ...

Nervous System: Speech

... or touch and hearing (2). As the angular gyrus is important in the processing of associating a heard name to a seen or felt object, it is probably also important for associations in the reverse direction. A "name" passes through Wernicke's area, then via the angular gyrus arouses associations in the ...

Temporal Lobe - socialscienceteacher

... sensory information, doing some initial processing, and then relaying the sensory information to areas of the cortex 4. Hippocampus – curved structure inside the temporal lobe – Involved in saving many kinds of fleeting memories by putting them into permanent storage in various parts of the brain ...

Central Nervous System

... nuclei to the cerebral cortex via midbrain and thalamus – MCP connects pontine nuclei to the cerebellum. This info ultimately came from the cerebral cortex and informs the cerebellum of voluntary motor activities – ICP connects the cerebellum and the medulla oblongata and carries sensory information ...

Brain Anatomy “Science erases what was previously true.”

... • Our brains are not naturally equipped to integrate extremely large or disparate types of information. They evolved primarily to negotiate social situations and survive natural threats. ...

BRAINSTEM

... (motor cortex); middle frontal gyrus; and inferior frontal gyrus – includes motor speech (Broca’s) area. Lateral surface – cognitive & emotions. Posterior to the central sulcus. Postcentral gyrus is the somatic sensory cortex where a sensory representation of the body is mapped. The posterior pariet ...

Motor Cortex

... Components of the extrapyramidal system which provides subconscious control of skeletal muscle tone and coordinates learned movement patterns and other somatic motor activities. Doesn’t initiate movements but once movement is underway, they assist in the pattern and rhythm (especially for trunk and ...

Exam 1

... (motor cortex); middle frontal gyrus; and inferior frontal gyrus – includes motor speech (Broca’s) area. Lateral surface – cognitive & emotions. Posterior to the central sulcus. Postcentral gyrus is the somatic sensory cortex where a sensory representation of the body is mapped. The posterior pariet ...

凌树才_边缘系统

... anthropologist. He is best known for his research on Broca's area, a region of the frontal lobe that has been named after him. The term “le grand lobe limbique” （边缘叶）was first used by Broca in 1878. ...

VISION John Gabrieli Melissa Troyer 9.00

... Optic nerve Optic chiasm Optic tract Lateral geniculate nucleus ...

Perception - Vision

... The camera doesn’t really do anything with this image and doesn’t have any knowledge about what is stored in the image ...

Slide - Reza Shadmehr

... Target location and hand position are computed by posterior parietal cortex cells in terms of vectors with respect to fixation point. These visual cues are represented with neurons that have receptive fields. Proprioceptive information from the arm, head, and eyes are used to estimate hand position ...

The Cerebral Cortex

... physiology or medicine for this work ...

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Inferior temporal gyrus

The inferior temporal gyrus is placed below the middle temporal gyrus, and is connected behind with the inferior occipital gyrus; it also extends around the infero-lateral border on to the inferior surface of the temporal lobe, where it is limited by the inferior sulcus. This region is one of the higher levels of the ventral stream of visual processing, associated with the representation of complex object features, such as global shape. It may also be involved in face perception, and in the recognition of numbers.The inferior temporal gyrus is the anterior region of the temporal lobe located underneath the central temporal sulcus. The primary function of the inferior temporal gyrus - otherwise referenced as IT cortex - is associated with visual stimuli processing, namely visual object recognition, and has been suggested by recent experimental results as the final location of the ventral cortical visual system. The IT cortex in humans is also known as the Inferior Temporal Gyrus since it has been located to a specific region of the human temporal lobe. The IT processes visual stimuli of objects in our field of vision, and is involved with memory and memory recall to identify that object; it is involved with the processing and perception created by visual stimuli amplified in the V1, V2, V3, and V4 regions of the occipital lobe. This region processes the color and form of the object in the visual field and is responsible for producing the “what” from this visual stimuli, or in other words identifying the object based on the color and form of the object and comparing that processed information to stored memories of objects to identify that object.The IT cortex’s neurological significance is not just its contribution to the processing of visual stimuli in object recognition but also has been found to be a vital area with regards to simple processing of the visual field, difficulties with perceptual tasks and spatial awareness, and the location of unique single cells that possibly explain the IT cortex’s relation to memory.

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Inferior temporal gyrus